PROBLEM FOCUS
As the artificial intelligence and electric vehicle (EV) sectors scale, legacy thermal management materials have reached a physical limit. In data centres, this bottleneck causes high-value GPUs to thermally throttle, destroying processing capacity and driving massive cooling energy demands. In the EV and aerospace sectors, the inability to 3D print lightweight, high-strength pure metals, such as aluminium, forces manufacturers to rely on heavy, waste-intensive subtractive manufacturing or carbon-intensive alloying with rare and critical metals.
TECHNOLOGY SOLUTION
LAYRR uses a proprietary, physics-based process to apply nanometre-thin coatings to standard commodity powders, upgrading them into high-performance materials at an industrial scale without solvents. By engneering the surface of powders at the atomic level, LAYRR enables extreme thermal conductivity at ultra-low active metal mass. In data centres, this achieves the thermal performance of premium solid-silver pastes while reducing the precious metal requirement by over 90%. For additive manufacturing, it unlocks the defect-free 3D printing of aerospace-grade 7000-series aluminium. This platform technology decarbonises the hardware supply chain by reducing critical mineral mining, enabling zero-waste near-net-shape manufacturing, and extending EV range through significant component lightweighting.
HEADQUARTER
Abingdon, UK
LEARN MORE
www.layrr.co
